CN103676590A - Cleaning device, fixing device, and image forming apparatus - Google Patents
Cleaning device, fixing device, and image forming apparatus Download PDFInfo
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- CN103676590A CN103676590A CN201310170113.1A CN201310170113A CN103676590A CN 103676590 A CN103676590 A CN 103676590A CN 201310170113 A CN201310170113 A CN 201310170113A CN 103676590 A CN103676590 A CN 103676590A
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- clearer
- paper
- cleaned
- parts
- fixing member
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G15/00—Apparatus for electrographic processes using a charge pattern
- G03G15/20—Apparatus for electrographic processes using a charge pattern for fixing, e.g. by using heat
- G03G15/2003—Apparatus for electrographic processes using a charge pattern for fixing, e.g. by using heat using heat
- G03G15/2014—Apparatus for electrographic processes using a charge pattern for fixing, e.g. by using heat using heat using contact heat
- G03G15/2017—Structural details of the fixing unit in general, e.g. cooling means, heat shielding means
- G03G15/2025—Structural details of the fixing unit in general, e.g. cooling means, heat shielding means with special means for lubricating and/or cleaning the fixing unit, e.g. applying offset preventing fluid
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- General Physics & Mathematics (AREA)
- Fixing For Electrophotography (AREA)
Abstract
The invention discloses a cleaning device, a fixing device, and an image forming apparatus. The cleaning device includes a first cleaning roller and a second cleaning roller. The first cleaning roller contacts a member to be cleaned, rotates, separates any matter to be removed that is stuck on the member to be cleaned from the member to be cleaned, and causes the matter to be removed to adhere to the first cleaning roller. The member to be cleaned rotates or circulates. The first cleaning roller has an elastic peripheral surface. The second cleaning roller has a peripheral surface whose hardness is higher than that of the first cleaning roller. The second cleaning roller pushes the first cleaning roller and rotates while causing the first cleaning roller to be elastically recessed, to separate the matter to be removed that is stuck on the first cleaning roller therefrom and cause the matter to be removed to adhere to the second cleaning roller.
Description
Technical field
The present invention relates to cleaning device, fixing device and image processing system.
Background technology
As for for example device of the technology of electrophotographic printing machine, known a kind of device that uses clearer.
The open No.2000-122458 of Japanese unexamined patent has disclosed a kind of fixing device with following structure:, the first clearer contacts with fixing roller, and the second clearer contacts with the first clearer, and scraper plate contacts with the second clearer.
The open No.2002-156860 of Japanese unexamined patent has disclosed a kind of fixing device with following structure:, clearer contacts with warm-up mill, and the rubber hardness of this clearer is lower than the rubber hardness of this warm-up mill.
Summary of the invention
Therefore, the object of the present invention is to provide and a kind ofly can remove reliably cleaning device, fixing device and the image processing system such as any things to be removed such as residual toners.
According to a first aspect of the invention, provide a kind of cleaning device, described cleaning device comprises the first clearer and the second clearer.Described the first clearer contacts and rotates with parts to be cleaned, makes to stick to thing any to be removed and described isolation of components to be cleaned on described parts to be cleaned, and thing to be removed is attached on described the first clearer.Described parts rotation to be cleaned or loopy moving.Described the first clearer has flexible side face.The hardness of the side face of described the second clearer is higher than the hardness of the side face of described the first clearer.Described the second clearer pushes described the first clearer and is rotated when making described the first clearer elasticity depression, so that it is separated with described the first clearer and thing to be removed is attached on described the second clearer to stick to thing to be removed on described the first clearer.
According to the second aspect based on first aspect of the present invention, described the second clearer is the metallic roll that lives through shot blast.
According to the third aspect based on first aspect or second aspect of the present invention, described parts to be cleaned are rotatable rollers to be cleaned, and the hardness of the side face of described the first clearer is lower than the hardness of the side face of described roller to be cleaned.
Based on the first fourth aspect to either side in the third aspect, described the first clearer is the rubber rollers that comprises axle core according to of the present invention, and described axle core is surrounded by heat resistant rubber.
According to a fifth aspect of the invention, provide a kind of fixing device, described fixing device comprises a pair of fixing member and cleaning device.Described a pair of fixing member contacts with each other and rotates or loopy moving, and the paper that is transmitted in the situation that carrying toner image and is placed between described a pair of fixing member is heated and pressurizeed, so as by toner image photographic fixing to paper.At least one fixing member in described a pair of fixing member is to be cleaned.Described cleaning device is set to corresponding with at least one fixing member to be cleaned in described a pair of fixing member.Described cleaning device cleans described at least one fixing member to be cleaned by removing any residual toner from described at least one fixing member to be cleaned.Described cleaning device comprises the first clearer and the second clearer.The residual toner that described the first clearer makes to stick on described at least one fixing member to be cleaned is separated with described at least one fixing member to be cleaned, and residual toner is attached on described the first clearer.Described the first clearer has flexible side face.The hardness of the side face of described the second clearer is higher than the hardness of the side face of described the first clearer.Described the second clearer pushes described the first clearer and is rotated when making described the first clearer elasticity depression, so that it is separated with described the first clearer and residual toner is attached on described the second clearer to stick to residual toner on described the first clearer.
According to a sixth aspect of the invention, provide a kind of image processing system, described image processing system comprises toner image forming portion and fixing device.Described toner image forming portion forms toner image on the paper being just transmitted.Described fixing device is arranged on the downstream of described toner image forming portion along paper conveyance direction.Described fixing device by the toner image photographic fixing on the paper being transmitted after having formed toner image to paper.Described fixing device comprises a pair of fixing member and cleaning device.Described a pair of fixing member contacts with each other and rotates or loopy moving, and the paper that is transmitted in the situation that carrying toner image and is placed between described a pair of fixing member is heated and pressurizeed, so as by toner image photographic fixing to paper.At least one fixing member in described a pair of fixing member is to be cleaned.Described cleaning device is set to corresponding with at least one fixing member to be cleaned in described a pair of fixing member.Described cleaning device cleans described at least one fixing member to be cleaned by removing any residual toner from described at least one fixing member to be cleaned.Described cleaning device comprises the first clearer and the second clearer.The residual toner that described the first clearer makes to stick on described at least one fixing member to be cleaned is separated with described at least one fixing member to be cleaned, and residual toner is attached on described the first clearer.Described the first clearer has flexible side face.The hardness of the side face of described the second clearer is higher than the hardness of the side face of described the first clearer.Described the second clearer pushes described the first clearer and is rotated when making described the first clearer elasticity depression, so that it is separated with described the first clearer and residual toner is attached on described the second clearer to stick to residual toner on described the first clearer.
Do not meet and compare according to the situation of the condition of first aspect with the hardness of the first clearer and the hardness of the second clearer, according to the cleaning device of first aspect, can remove such as any things to be removed such as residual toners reliably according to the fixing device of the 5th aspect with according to the image processing system of the 6th aspect.
The situation that does not live through shot blast with the second clearer is compared, and according to the cleaning device of second aspect, can reclaim such as any things to be removed such as residual toners more reliably.
Do not meet and compare according to the situation of the condition of the third aspect with the hardness of the first clearer and the hardness of roller to be cleaned, according to the cleaning device of the third aspect, can suppress the deteriorated of roller to be cleaned.
Compare with the situation that the first clearer is not rubber rollers, according to the cleaning device of fourth aspect, can remove such as any things to be removed such as residual toners more reliably.
Accompanying drawing explanation
To describe exemplary embodiment of the present invention in detail based on the following drawings, wherein:
Fig. 1 is the schematic diagram illustrating according to the structure of the printer of exemplary embodiment of the present invention;
Fig. 2 is the skeleton view of the fixation unit observed from the oblique upper of fixation unit;
Fig. 3 is the skeleton view of the fixation unit observed from the different observation point of the observation point from observing fixation unit Fig. 2 of the oblique upper of fixation unit;
Fig. 4 be from the oblique beneath of fixation unit to the skeleton view of fixation unit;
Fig. 5 is the skeleton view of the fixation unit observed from the different observation point of the observation point from observing fixation unit Fig. 4 of the oblique below of fixation unit;
Fig. 6 is the rear view of the fixation unit observed of the rear (left side Fig. 1) from fixation unit;
Fig. 7 is the cut-open view along the fixation unit of the arrow VII-VII intercepting shown in Fig. 6;
Fig. 8 is the skeleton view of the assembly that comprises fixing band and warm-up mill of fixation unit;
Fig. 9 is the skeleton view of the assembly that comprises fixing band and warm-up mill of the fixation unit observed from the different observation point of the observation point from Fig. 8;
Figure 10 is the skeleton view of the assembly that comprises fixing band and warm-up mill of the fixation unit observed from the different observation point of the observation point from Fig. 8 and Fig. 9;
Figure 11 is the skeleton view of the assembly that comprises fixing band after having removed warm-up mill;
Figure 12 is the skeleton view of the assembly that comprises warm-up mill in the situation that of not removed warm-up mill having removed fixing band;
Figure 13 is the first clearer of each cleaning device and the schematic diagram of the second clearer;
Figure 14 illustrates that the first clearer contacts with warm-up mill and the schematic cross sectional views of the state that the second clearer contacts with corresponding the first clearer;
Figure 15 is the front elevation for the cleaning device of warm-up mill;
Figure 16 is the front elevation of the end of the first clearer and the end of the second clearer;
Figure 17 is the decomposition diagram of a part, clutch shaft bearing parts (as the bearing of the first clearer) and second parts of bearings (as the bearing of the second clearer) of support frame;
Figure 18 is the clutch shaft bearing parts observed along rotation direction and the decomposition side view of the second parts of bearings;
Figure 19 is the side view that the state of the clutch shaft bearing parts that fit together observed along rotation direction and the second parts of bearings is shown;
Figure 20 shows the state that clutch shaft bearing parts that the direction of the part being fitted to each other from clutch shaft bearing parts and the second parts of bearings observes and the second parts of bearings fit together;
Figure 21 is the cut-open view along the arrow XXI-XXI intercepting in Figure 15;
Figure 22 is the cut-open view along the arrow XXII-XXII intercepting in Figure 15;
Figure 23 is the skeleton view for the parts of bearings of the cleaning device of fixing band;
Figure 24 is the decomposition diagram of a part, clutch shaft bearing parts (as the bearing of the first clearer) and second parts of bearings (being used as the bearing of the second clearer) of the support frame further removed for example the first clearer and the second clearer from the state shown in Figure 23 after;
Figure 25 is the clutch shaft bearing parts observed along rotation direction and the decomposition side view of the second parts of bearings;
Figure 26 is the side view that the state of the clutch shaft bearing parts that fit together observed along rotation direction and the second parts of bearings is shown;
Figure 27 is the front elevation of the part identical with the part shown in Figure 23;
Figure 28 is the cut-open view along the arrow XXVIII-XXVIII intercepting shown in Figure 27;
Figure 29 is the cut-open view along the arrow XXIX-XXIX intercepting shown in Figure 27;
Figure 30 is the external perspective view of the press device shown in the cut-open view of Fig. 7;
Figure 31 is the skeleton view that excises the inside of the press device after the remainder of fixing band only leaving the two side portions of fixing band;
Figure 32 shows the part that is positioned at fixing band inner side of the press device after the fixing band that has removed the two side portions that comprises fixing band;
Figure 33 is the front elevation of guide member;
Figure 34 is the cut-open view along the arrow XXXIV-XXXIV intercepting shown in Figure 33;
Figure 35 is the front elevation in the only plate member that paper receiving-member is observed from the identical observation point of the observation point with observing guide member Figure 33 after guide member removes;
Figure 36 is the front elevation of paper receiving-member;
Figure 37 is the side view of paper receiving-member;
Figure 38 is the skeleton view of paper receiving-member;
Figure 39 is the skeleton view that the following first stage when observing guide member by the part excision of plate member and from the back side of guiding surface is shown, this first stage is the stage during paper receiving-member is installed on to plate member, in the hole that the insertion portion of paper receiving-member is inserted into plate member after, the stage before moving insertion portion along guiding surface;
Figure 40 is the side view of the guide member in the first stage shown in Figure 39;
Figure 41 shows a part for viewed guide member when the direction of the arrow XLI-XLI along shown in Figure 40 is observed the guide member in the first stage;
Figure 42 illustrates when by the skeleton view of the part excision of plate member and the following subordinate phase when guide member is observed at the back side of guiding surface: this subordinate phase is the hole that the insertion portion of paper receiving-member is inserted into plate member and makes the stage of insertion portion after guiding surface moves, that is, this subordinate phase is that the completed stage is installed;
Figure 43 is the side view of the guide member in the subordinate phase shown in Figure 42; And
Figure 44 shows a part for viewed guide member when the direction of the arrow XLIV-XLIV along shown in Figure 43 is observed the guide member in subordinate phase.
Embodiment
Exemplary embodiment of the present invention is described below with reference to the accompanying drawings.
Fig. 1 is the schematic diagram illustrating according to the structure of the printer 100 of exemplary embodiment of the present invention.
In the bottom of printer 100, be provided with paper tray 120, paper P superposes each other and is placed on paper tray 120.As shown in Figure 1, paper tray 120 surpasses under the state of housing 110 and is arranged in printer 100 in the rear surface side towards printer 100 (R side) projection.
In order to supplement paper P to paper tray 120, paper tray 120 forward face side (F side) is extracted out.
When pick-up roller 131 is placed on paper P in paper tray 120 by superposeing each other, take out, and in the paper P taking out, two pages or multipage paper P remain while superposeing each other, by separate roller 132, isolate only one page paper P.Transmit separated paper P, until the leading edge of paper P arrives dancer rools 133.Dancer rools 133 regulates the orientation of the paper P being transmitted, and forms regularly (will be described below) by transmitted paper P further transmission downstream according to image.
Above dancer rools 133, be provided with sheet-transport belt 140.Sheet-transport belt 140 is stretched on roller 141, along the direction loopy moving of arrow A, and the paper P transmitting that (made progress among Fig. 1) by further downstream from dancer rools 133 is transmitted upward.
Each in four drum type photoreceptor parts 150 of rotation is arranged as relative with sheet-transport belt 140 in the direction of arrow B.Around each photoreceptor parts 150, be provided with charhing unit 151, developing cell 152 and clearer 153.Each transfer printing unit 154 is arranged on and makes sheet-transport belt 140 be placed in the position between this transfer printing unit 154 and corresponding photoreceptor parts 150.In addition, at the rear of photoreceptor parts 150 (being the left side of photoreceptor parts 150 in Fig. 1), be provided with exposing unit 160.
Here, each photoreceptor parts 150 along its rotation direction (, the direction vertical with the plane of Fig. 1) size is greater than the size of (Width) in the same direction of paper, and toner image be almost formed into paper along on the both sides of the edge of its Width.This is equally applicable to longitudinal (direction of transfer) of paper, and toner image is formed on photoreceptor parts 150 from the position of the leading edge of next-door neighbour's paper to the antemarginal position of next-door neighbour's paper.
Be conditioned transmission Timing Synchronization that roller 133 sends and transmitted by sheet-transport belt 140 and implement aforementioned toner image with paper and form circulation.Thereby by the toner image that 154 pairs of transfer printing units are formed on the corresponding color on corresponding photoreceptor parts 150, carrying out transfer printing superposes toner image each other and is transferred on paper.
The paper that transfer printing has had a toner image is further upwards transmitted, and is subject to heating and the pressurization of fixation unit 170, thereby makes toner image photographic fixing on paper to paper, and result forms the image that the toner image by photographic fixing forms on paper.By exit roller assembly 180, paper is discharged on discharge tray 111.
According to the fixation unit 170 of this exemplary embodiment, comprise the ring-type fixing band 171 of loopy moving and the warm-up mill 172 of the toner image on driving fixing band 171 heating paper.The leading edge of the paper upwards having been transmitted by sheet-transport belt 140 contacts with guide member 174.Then, guide member 174 guides to paper in the photographic fixing region being placed between fixing band 171 and warm-up mill 172.Guide member 174 is the parts that also form a part for fixation unit 170.
In printer 100, as mentioned above, image is almost formed on leading edge, back edge and the both sides of the edge of paper.Therefore, toner may be fallen sheet-transport belt 140 from the edge of paper.If the toner having spilt on sheet-transport belt 140 is stayed on sheet-transport belt 140, the toner overflowing may be attached to the back side of paper for example and paper is polluted.Therefore, in this position, be provided with the cleaning balde 142 that the toner spilling on sheet-transport belt 140 is struck off.The toner having been struck off by cleaning balde 142 is collected in assembling supporting member (not shown).
In the time will forming image on paper two-sided, on the first surface of paper, form image as described above ground, and exit roller assembly 180 is discharged to paper on discharge tray 111, until the back edge of paper is placed in the position between exit roller assembly 180.At this constantly, exit roller assembly 180 reverse rotations.As a result, paper is pulled again, and is transmitted downwards along paper transport path 191, thereby the leading edge of paper (that is, the back edge along paper conveyance direction of paper when at first surface formation image) arrives dancer rools 133.Now, when image has been formed on first surface, pros and cons upset.Then, dancer rools 133 transmits paper again, and forms image on second of paper of being formed with image on first surface.By exit roller assembly 180, the paper that has been formed with image on second is discharged on discharge tray 111.
Fig. 2 and Fig. 3 are respectively the skeleton views of the fixation unit shown in the Fig. 1 observing from the different observation point of the oblique upper of the fixation unit of printer.Fig. 4 and Fig. 5 are respectively Fig. 2 of observing from the different observation point of the oblique below of fixation unit and the skeleton view of the fixation unit shown in Fig. 3.
Leading edge conflict Fig. 4 of the paper that sheet-transport belt 140 as shown in Figure 1 upwards transmits and the guide member 174(shown in Fig. 5 are also referring to Fig. 1).Then, paper is directed to the photographic fixing region being placed between fixing band shown in Fig. 1 171 and warm-up mill 172.In Fig. 5, also show warm-up mill 172.
Through the paper in photographic fixing region, upwards push paper path switching part 175, the exit roller 181(from exit roller 173 and printer main body is shown in Fig. 1) between pass through, and be discharged on discharge tray 111.
Image is being formed under the two-sided pattern of paper, when paper being sent at exit roller assembly on discharge tray 111, the back edge of paper is by paper path switching part 175, and when the paper path switching part 175 upwards having been pushed returns to its initial position this moment, exit roller 173 reverse rotations.As a result, this time, paper passes through from paper path switching part 175, and transmits along the paper transport path 191 shown in Fig. 1.Next transmit the path of paper as described above.
Another gear 178 has been shown in Fig. 5.Gear 178 is to receive from the gear that is arranged on the driving force of another drive source (not shown) on printer main body when exit roller 173 reverse rotation.Gear 178 receives driving forces, by driving force pass to shown in Fig. 2 to Fig. 4 with the direct-connected gear 179 of exit roller 173, thereby make exit roller 173 reverse rotations.
Fig. 6 is the rear view of the fixation unit observed of the rear (left side Fig. 1) from fixation unit.Fig. 7 is the cut-open view along the fixation unit of the arrow VII-VII intercepting shown in Fig. 6.
As mentioned above, fixation unit 170 for example comprises fixing band 171, warm-up mill 172, exit roller 173, guide member 174, paper path switching part 175, control lever 176 and gear 179.Warm-up mill 172 comprises rotatable cylindrical-shaped main body 172a and is arranged in cylindrical-shaped main body and heats the heating source 172b of cylindrical-shaped main body.Fixing band 171 forms the press device 400 on warm-up mill 172 by the paper pressing of the photographic fixing region transmission having contacted with each other towards fixing band 171 and warm-up mill 172.Although will describe in detail hereinafter, in press device 400, inner metal bezel frame 410, pressing component 420 and 430 and felt parts 440 and 441 be arranged on the inner side of fixing band 171.
As mentioned above, printer 100 is the printers that form the image that almost extends to paper edge, and toner may overflow from the edge of paper.Therefore, even if fixation unit 170 also comprises the clean cleaning device 200 of fixing band 171 and the cleaning device 300 of clean warm-up mill 172.
Although will describe in detail hereinafter, the first clearer 210 and the first clearer 310 are subject to respectively the thrust that spring applies towards fixing band 171 and warm-up mill 172, and the second clearer 210 and the first clearer 310 are subject to respectively the thrust that spring applies towards the first clearer 210 and the first clearer 310.Here, the vector that is applied to the spring thrust on the first clearer 210 and the first clearer 310 is superimposed with the vector that is applied to the spring thrust on the second clearer 220 and the second clearer 320.By this way, the direction pushing clearer superposeing each other by the vector along two thrusts, whole thrust is little, thereby can use little spring to obtain enough thrust.This contributes to reducing of size.
Fig. 8 to Figure 10 is respectively the skeleton view of the assembly of the fixing band that comprises fixation unit observed from different observation point and warm-up mill.Figure 11 is the skeleton view of the assembly that comprises fixing band after having removed warm-up mill.Figure 12 is the skeleton view of the assembly that comprises warm-up mill in the situation that of not removed warm-up mill having removed fixing band.
Fig. 8 shows metallic support framework 510, fixing band 171 and warm-up mill 172.Fixing band 171 is rotatably supported by support frame 510 at the place, both ends along its rotation direction.Warm-up mill 172 is also rotatably supported by support frame 510.The first clearer 210 of the cleaning device 200 of clean fixing band 171 has been shown in Fig. 8.The first clearer 210 along the direction of rotation, extend into and spread all over (across) length in the whole region contacting with paper of fixing band 171.Figure 11 also shows the second clearer 220 of cleaning device 200 except showing the first clearer 210 of fixing band 171 and cleaning device 200.
The same length of the length of the second clearer 220 and the first clearer 210.The second clearer 220 contacts with the first clearer 210 on the whole region of the rotation direction along this first clearer 210 of the first clearer 210.
Here, the first clearer 210 is such parts: these parts contact with the outside surface of fixing band 171, driven and the rotation along with the loopy moving of fixing band 171, the residual toner that makes to stick on fixing band 171 is separated with fixing band 171, and residual toner is attached to above the first clearer 210 self.
The second clearer 220 is such parts: these parts contact with the first clearer 210 with the position between fixing band 171 making the first clearer 210 be placed in the second clearer 220, driven and the rotation along with the rotation of the first clearer 210, the residual toner that makes to stick on the first clearer 210 is separated with the first clearer 210, and residual toner is attached to above the second clearer 220 self.As long as printer 100(is shown in Fig. 1) can use, that is to say, until the life termination of printer 100, the residual toner sticking on the second clearer 220 still sticks on the second clearer 220.
Fig. 9 and Figure 10, except fixing band 171 and warm-up mill 172 are shown, also illustrate respectively the first clearer 310 and second clearer 320 of the cleaning device 300 of clean warm-up mill 172.Figure 12 shows the state that warm-up mill 172 is supported by support frame 510 after having removed fixing band 171.In Figure 12, also show the first clearer 310 and second clearer 320 of the cleaning device 300 of clean warm-up mill 172.
The first clearer 210 of the cleaning device 200 of the material of the material of the first clearer 310 and size and the second clearer 320 and size and clean fixing band 171 and the material of the second clearer 220 and measure-alike.
The first clearer 310 of the cleaning device 300 of clean warm-up mill 172 contact with warm-up mill 172 and spread all over warm-up mill 172 the rotation direction along this warm-up mill 172 roughly whole region and extend.The second clearer 320 contacts with the first clearer 310, and spread all over the first clearer 310 the rotation direction along this first clearer 310 roughly whole region and extend.
The first clearer 310 of cleaning device 300 and the effect of the second clearer 320 of clean warm-up mill 172 are identical with the effect of the second clearer 220 with first clearer 210 of cleaning device 200 of clean fixing band respectively.That is to say, the first clearer 310 contacting with warm-up mill 172 is such parts: these parts contact with warm-up mill 172, driven and the rotation along with the rotation of warm-up mill 172, the residual toner that makes to stick on warm-up mill 172 is separated with warm-up mill 172, and residual toner is attached to above the first clearer 310 self.The second clearer 320 is such parts: these parts contact with the first clearer 310 with the position between warm-up mill 172 making the first clearer 310 be placed in the second clearer 320, driven and the rotation along with the rotation of the first clearer 310, the residual toner that makes to stick on the first clearer 310 is separated with the first clearer 310, and residual toner is attached to above the second clearer 320 self.The residual toner sticking on the second clearer 320 still sticks on the second clearer 320, until the life termination of printer 100.
The shape of < clearer and hardness >
Figure 13 is the first clearer of each cleaning device and the schematic diagram of the second clearer.Figure 14 illustrates that the first clearer contacts with warm-up mill and the schematic cross sectional views of the state that the second clearer contacts with the first clearer.Figure 13 and Figure 14 have schematically highlighted in the accompanying drawing of having described above unclear point with respect to each cleaning device.
The state that Figure 13 shows the first clearer 210 and the first clearer 310 and corresponding the second clearer 220 and the second clearer 320 is separated from one another and arrange adjacent to each other.
As Figure 13 highlights, each in the first clearer 210 and the first clearer 310 is the so-called convex surface roller that the central authorities along rotation from the first clearer reduce continuously towards the two ends of the first clearer diameter.In contrast, the second clearer 220 in exemplary embodiment and each in the second clearer 320 are the straight rollers that any position in rotation direction has identical diameter.
Yet, as at length illustrated with reference to Figure 14, the first clearer 210 is to be formed by relative soft material with the first clearer 310, thereby the second clearer 220 contacts with the whole region along its rotation direction of the first clearer 310 at corresponding the first clearer 210 and the first clearer 310 with corresponding the first clearer 210 with the second clearer 320.
As mentioned above, the residual toner sticking on the second clearer 220 and the second clearer 320 still sticks on the second clearer 220 and the second clearer 320, until printer 100(is shown in Fig. 1) life termination.
Due in printer 100, image be formed on paper along on the whole region of its Width, any toner therefore overflowing along the Width of paper will be attached on fixing band 171 and warm-up mill 172.Printer 100 can use the paper of sizes but not can only use a kind of paper of size.Illustrate to property as schematically shown in Figure 13, finally still stick to residual toner ST on the second clearer 220 and the second clearer 320 tend to be accumulated in the second clearer 220 and the second clearer 320 along on the both ends of its rotation direction.That is to say, when including residual toner, the diameter along rotation and towards two ends of each in the second clearer 220 and the second clearer 320 tends to be greater than each the diameter of the centre along rotation in the second clearer 220 and the second clearer 320.In the situation that the first clearer 210 and the first clearer 310 are convex surface roller, from printer 100 for the new printer that is not yet stained with residual toner ST to printer 100 for having accumulated the residual toner ST of appreciable amount and having approached very much in long-time section of printer of its end of life, the residual toner that can make reliably to stick on the first clearer 210 and the first clearer 310 moves on to respectively on the second clearer 220 and the second clearer 320.
Because the first clearer 210 and the first clearer 310 are convex surface rollers, the therefore relation with warm-up mill 172 owing to the first clearer 210 and the first clearer 310, following effects is expected.
As described in reference to Figure 7, warm-up mill 172 comprises rotatable cylindrical-shaped main body 172a and is arranged in cylindrical-shaped main body and heats the heating source 172b of cylindrical-shaped main body.Heating source 172b is the microscler heating source extending along its rotation direction, thereby the whole region along its rotation direction of warm-up mill 172 is roughly heated equably.As mentioned above, in printer 100, can use polytype paper, only utilize the little paper of the middle section along its rotation direction (that is, not using the whole region along its rotation direction of warm-up mill 172) of warm-up mill 172 to be included among described polytype paper.In this case, when paper passes through warm-up mill 172, the heat of the central portion office of warm-up mill 172 is easily taken away by paper, therefore, the temperature of the middle body of warm-up mill 172 is tended to as relatively low, and the temperature at place, the two ends of warm-up mill 172 is tended to as relatively high.When to have produced temperature that the temperature of the middle body of warm-up mill 172 is the two ends of low warm-up mill 172 be high Temperature Distribution, cause due to thermal expansion, the diameter of the middle body of warm-up mill 172 tends to diminish, and the diameter at the two ends of warm-up mill 172 tends to become greatly.That is to say, these tendencies of warm-up mill 172 are contrary with the tendency of convex surface roller.Therefore, when the first clearer 310 contacting with warm-up mill 172 is convex surface roller, the first clearer along on the whole region of its rotation direction, the first clearer 310 remains normal contact width with the contact width of warm-up mill 172, thereby any residual toner sticking on warm-up mill 172 moves on the first clearer 310 more reliably.
Each in the first clearer 210 and the first clearer 310 is the roller with elasticity outer surface (side face).More particularly, in the exemplary embodiment, each in the first clearer 210 and the first clearer 310 is the rubber rollers that comprises the axle core being surrounded by heat resistant rubber.As heat resistant rubber, for example can adopt silicon rubber or fluororubber, there is the roughly rubber of the hardness (JIS A) of 15 degree and be suitable as heat resistant rubber.
If the first clearer 210 uses relative soft heat resistant rubber with each in the first clearer 310, can guarantee contact area between contact area, the first clearer 210 and the second clearer 220 between contact area, the first clearer 310 and the warm-up mill 172 between the first clearer 210 and fixing band 171 and the contact area between the first clearer 310 and the second clearer 320.
The second clearer 220 is the rollers with following outer surface: the hardness of this outer surface is higher than the hardness of the outer surface of the first clearer 210.The second clearer 320 is the rollers with following outer surface: the hardness of this outer surface is higher than the hardness of the outer surface of the first clearer 310.More particularly, in this exemplary embodiment, each in the second clearer 220 and the second clearer 320 is that outer surface is through the metallic roll of shot blast (blasting).Each in the first clearer 210 and the first clearer 310 is rubber rollers.Because the second clearer 220 and the second clearer 320 are metallic roll, therefore, if as illustrated in fig. 14 the second clearer 220 and the second clearer 320 are pressed to respectively on the first clearer 210 and the first clearer 310, sunk area becomes contact area between the first clearer 210 and the second clearer 220 and the contact area between the first clearer 310 and the second clearer 320.Area depression because the first clearer 210 contacts with the second clearer 320 with the second clearer 220 at them respectively with the first clearer 310, therefore can contribute to stick to the first clearer 210 separated with the first clearer 310 with the first clearer 210 with the residual toner on the first clearer 310.Because the second clearer 220 and the second clearer 320 are because having coarse surface through shot blast, therefore can reliably the residual toner sticking on the first clearer 210 and the first clearer 310 be struck off.Due to shot blast, the second clearer 220 and the second clearer 320 have the surface property that is easy to keep the residual toner struck off.
The hardness of the first clearer 210 is lower than the hardness of fixing band 171, and the hardness of the first clearer 310 is lower than the hardness of warm-up mill 172.Therefore, as shown in the relation between the first clearer 210 and warm-up mill 172 in Figure 14, the region deflection that the first clearer 310 contacts with warm-up mill 172 at it, thereby make contact area there is the more wide degree along sense of rotation, and the residual toner sticking on warm-up mill 172 move on the first clearer 310 reliably.Here, if object is only to guarantee to have the contact area of wide width between warm-up mill 172 and the first clearer 310, can any one the hardness in warm-up mill 172 and the first clearer 310 be set as low.Here, to make the hardness of the first clearer 310 be low so as the surface of the warm-up mill 172 that reduces to cause when warm-up mill 172 contacts with the first clearer 310 by the possibility of scratch.
If use the rubber rollers with the hardness of 15 degree roughly as the first clearer 210 and the first clearer 310, the outer surface of rubber rollers has suitable viscosity.Therefore,, if considered from the side, the residual toner sticking on fixing band 171 and warm-up mill 172 moves to respectively on the first clearer 210 and the first clearer 310 more reliably.
Clearer bearing and spring thrust
Figure 15 is the front elevation for the cleaning device of warm-up mill.
The warm-up mill 172 that Figure 15 shows support frame 510, rotatably supported by support frame 510 and for the first clearer 310 and second clearer 320 of the cleaning device 300 of warm-up mill 172.Arrow XXI-XXI and arrow XXII-XXII represent the interception position (will be described below) in cut-open view.Describe hereinafter along the cut-open view of arrow XXI-XXI and the intercepting of the indicated line of arrow XXII-XXII.
Figure 16 is the front elevation of the end of the first clearer and the end of the second clearer (that is the end of the end of the side, representing with arrow XXI-XXI in Figure 15 and the side representing with arrow XXII-XXII in Figure 15).
Figure 17 is the decomposition diagram of a part, clutch shaft bearing parts (as the bearing of the first clearer) and second parts of bearings (as the bearing of the second clearer) of support frame.
Figure 18 is the clutch shaft bearing parts observed along rotation direction and the decomposition side view of the second parts of bearings.Figure 19 is the side view that the state of the clutch shaft bearing parts that fit together observed along rotation direction and the second parts of bearings is shown.Figure 20 shows (that is to say that the direction of the part being fitted to each other from clutch shaft bearing parts and the second parts of bearings observes, from observing among Figure 19, observation point that the observation point of clutch shaft bearing parts and the second parts of bearings turn 90 degrees partially observes, and along the direction of the arrow XX in Figure 19, observes) state that fits together of clutch shaft bearing parts and the second parts of bearings.
Here, although only describe an end of bearing portions, this description is also applicable to another end of bearing portions.
Clutch shaft bearing parts 330 have semi-circular recesses 331.The axle of the first clearer 310 is inserted in semi-circular recesses 331, thereby the first clearer 310 is rotatably supported by clutch shaft bearing parts 330.
The second parts of bearings 340 also has semi-circular recesses 341.The axle of the second clearer 320 is inserted in the groove 341 of the second parts of bearings 340, thereby the second clearer 320 is rotatably supported by the second parts of bearings 340.
As shown in Figure 17 and Figure 18, in metallic support framework 510, be formed with the groove 511 being arranged between two limit 511a that extend along the direction of four-headed arrow D-D.In the corresponding side of clutch shaft bearing parts 330, be formed with groove 332, the limit 511a of support frame 510 inserts in groove 332.Clutch shaft bearing parts 330 are set to when the limit of support frame 510 511a coordinates with the groove 332 of clutch shaft bearing parts 330 direction along the groove 511 of support frame 510 along four-headed arrow D-D to move.The first spring members 350(is shown in Figure 21, will be described below) along the first clearer 310 being supported by clutch shaft bearing parts 330, be pushed to the direction pushing clutch shaft bearing parts 330 on warm-up mill 172.
In clutch shaft bearing parts 330, be also formed with two grooves 333 that coordinate with the second parts of bearings 340.These grooves 333 along with for coordinating the direction that the groove 332 of support frame 510 is identical to extend.On the second parts of bearings 340, be provided with two projections 342, these two projections 342 enter in two grooves 333 of clutch shaft bearing parts 330.
The second parts of bearings 340 is supported for when two projections 342 are inserted in two grooves 333 of clutch shaft bearing parts 330 (seeing Figure 20), and the second parts of bearings 340 can be with respect to clutch shaft bearing parts 330 and move along the direction of four-headed arrow D-D.
The second parts of bearings 340 is supported by the clutch shaft bearing parts 330 that supported by each support frame 510.The second spring members 360(is shown in Figure 22, will be described below) along the second clearer 320 being supported by the second parts of bearings 340, be pushed to by the direction on the first clearer 310 of clutch shaft bearing parts 330 supports and push the second parts of bearings 340.
In addition, as shown in figure 19, the groove 331 that is arranged on the bearing for the first clearer in clutch shaft bearing parts 330 is also arranged side by side along the direction of four-headed arrow D-D with the groove 341 that is arranged on the bearing for the second clearer of the second parts of bearings 340.
Correspondingly, because the second parts of bearings 340 is supported by clutch shaft bearing parts 330, therefore make printer less than the printer with following structure: in this structure, clutch shaft bearing parts 330 and the second parts of bearings 340 are supported by support frame 510 respectively.
Because clutch shaft bearing parts 330 are supported by the support frame 510 that supports warm-up mill 172, the direction that the first clearer 310 therefore being supported by clutch shaft bearing parts 330 is pushed on warm-up mill 172 is accurately controlled.Similarly, because the second parts of bearings 340 is supported by the clutch shaft bearing parts 330 that support the first clearer 310, the direction that the second clearer 320 therefore being supported by the second parts of bearings 340 is pushed on the first clearer 310 being supported by clutch shaft bearing parts 330 is accurately controlled.
Figure 21 is the cut-open view along the arrow XXI-XXI intercepting in Figure 15.Figure 22 is the cut-open view along the arrow XXII-XXII intercepting in Figure 15.
As shown in figure 21, comprise that the direction that the first spring members 350 of Compress Spring is pushed on warm-up mill 172 along the first clearer 310 being supported by clutch shaft bearing parts 330 applies power to clutch shaft bearing parts 330.
As shown in figure 22, comprise that the direction that the second spring members 360 of torsionspring is pushed on the first clearer 310 being supported by clutch shaft bearing parts 330 along the second clearer 320 being supported by the second parts of bearings 340 applies power to the second parts of bearings 340.
Here, the supported framework 510 of clutch shaft bearing parts 330 is supported for and can sees Figure 17 and Figure 18 along four-headed arrow D-D() direction move.The second parts of bearings 340 is supported for can be mobile along the direction identical with clutch shaft bearing parts 330 (direction of four-headed arrow D-D).The rotation of the rotation of the first clearer 310 being supported by clutch shaft bearing parts 330 in addition, and the second clearer 320 of being supported by the second parts of bearings 340 is also arranged side by side along the direction of four-headed arrow D-D.
Therefore,, when the second spring members 360 shown in Figure 22 applies power to the second parts of bearings 340, the second spring members 360 is pressed to the second clearer 320 being supported by the second parts of bearings 340 on the first clearer 310 being supported by clutch shaft bearing parts 330.In addition, as shown in figure 21, the second spring members 360 is worked in coordination with the first spring members 350 that applies power to clutch shaft bearing parts 330, and the first clearer 310 is pressed on warm-up mill 172.In contrast, the second clearer 320 is only pushed on the first clearer 310 by applying the second spring members 360 of power to the second parts of bearings 340.Therefore, by the first clearer 310, being applied to thrust on warm-up mill 172 is better than reliably by the second clearer 320 and is applied to the thrust on the first clearer 310.
If the relation between these thrust strengths takes a turn for the worse, because the second clearer 320 is pressed on the first clearer 310 more strongly, the second clearer 320 becomes large with respect to the resistance of the rotation of the first clearer 310.This makes the first clearer 310 be difficult to receive driving force and driven and rotation from warm-up mill 172.Therefore, this relation may hinder the first clearer 310 be activated and rotate.Here, the first clearer 310 is applied to thrust on warm-up mill 172 and is remained reliably and be greater than the second clearer 320 and be applied to the thrust on the first clearer 310.Therefore, along with warm-up mill 172 rotations, the first clearer 310 is driven reliably and is rotated, and along with the first clearer 310 rotations, the second clearer 320 is driven reliably and rotates.This is shifted residual toner reliably.
As described above, the moving direction of the moving direction of clutch shaft bearing parts 330 and the second parts of bearings 340 is the direction (seeing Figure 17 and Figure 18) of four-headed arrow D-D.The rotation of the rotation of the first clearer 310 being supported by clutch shaft bearing parts 330 in addition, and the second clearer 320 of being supported by the second parts of bearings 340 is also arranged side by side along the direction of four-headed arrow D-D.The direction vector of the thrust therefore, being applied by the second spring members 360 overlaps with the direction vector of the thrust being applied by the first spring members 350.As a result, when the first clearer 310 is pressed on warm-up mill 172, can obtain with minimum spring force needed thrust.
Figure 23 is the skeleton view for the parts of bearings of the cleaning device of fixing band.
Figure 23 show for each of the first clearer 210 of the cleaning device 200 of fixing band and the second clearer 220 along its axial end, wherein the first clearer 210 and the second clearer 220 are set to guided member 174(and also see Fig. 1) institute is hidden.Although only illustrate and describe the bearing arrangement for an end of the cleaning device of fixing band, yet the bearing arrangement of another end is also identical.
In Figure 23, also show the clutch shaft bearing parts 230 as the bearing of the first clearer 210.
Clutch shaft bearing parts 230 are supported by support frame 510 movably.Although not shown in Figure 23, the second parts of bearings 240(being also provided with as the bearing of the second clearer 220 is shown in Figure 24 to Figure 26), and the second parts of bearings 240 is supported by clutch shaft bearing parts 230 movably.In addition, be also provided with the first spring members 250 of pushing clutch shaft bearing parts 230 and the second spring members 260 of pushing the second parts of bearings 240.
Figure 24 is the decomposition diagram of a part, clutch shaft bearing parts and second parts of bearings of the support frame further removed for example the first clearer and the second clearer from the state shown in Figure 23 after.
Figure 25 is the clutch shaft bearing parts observed along rotation direction and the decomposition side view of the second parts of bearings.Figure 26 is the side view that the state of the clutch shaft bearing parts that fit together observed along rotation direction and the second parts of bearings is shown.
Clutch shaft bearing parts 230 have semi-circular recesses 231.The axle of the first clearer 210 is inserted in semi-circular recesses 231, thereby the first clearer 210 is rotatably supported by clutch shaft bearing parts 230.
The second parts of bearings 240 also has semi-circular recesses 241.The axle of the second clearer 220 is inserted in the groove 241 of the second parts of bearings 240, thereby the second clearer 220 is rotatably supported by the second parts of bearings 240.
As shown in Figure 24 and Figure 25, in metallic support framework 510, be formed with the groove 512 being arranged between two limit 512a that extend along the direction of four-headed arrow E-E.In the corresponding side of clutch shaft bearing parts 230, be formed with groove 232, the limit 512a of support frame 510 is inserted in groove 232.Clutch shaft bearing parts 230 are set to when the limit of support frame 510 512a coordinates with the groove 232 of clutch shaft bearing parts 230 direction along the groove 512 of support frame 510 along four-headed arrow E-E to move.The first spring members 250(is shown in Figure 23 and Figure 28) along the first clearer 210 being supported by clutch shaft bearing parts 230, be pushed to the direction pushing clutch shaft bearing parts 230 on fixing band 171.
In clutch shaft bearing parts 230, be also formed with two grooves 233 that coordinate with the second parts of bearings 240.These grooves 233 along with for coordinating the direction that the groove 232 of support frame 510 is identical to extend.On the second parts of bearings 240, be provided with two projections 242, these two projections 242 enter in two grooves 233 of clutch shaft bearing parts 230.
The second parts of bearings 240 is supported for when two projections 242 are inserted in two grooves 233 of clutch shaft bearing parts 230, and the second parts of bearings 240 can be with respect to clutch shaft bearing parts 230 and move along the direction of four-headed arrow E-E.
The second parts of bearings 240 is supported by the clutch shaft bearing parts 230 that supported by each support frame 510.The second spring members 260(is shown in Figure 23 and Figure 29) along the second clearer 220 being supported by the second parts of bearings 240, be pushed to by the direction on the first clearer 210 of clutch shaft bearing parts 230 supports and push the second parts of bearings 240.
In addition, as shown in figure 26, the groove 231 that is arranged on the bearing for the first clearer in clutch shaft bearing parts 230 is also arranged side by side along the direction of four-headed arrow E-E with the groove 241 that is arranged on the bearing for the second clearer of the second parts of bearings 240.
Correspondingly, because the second parts of bearings 240 is supported by clutch shaft bearing parts 230, therefore make printer less than the printer with following structure: in this structure, clutch shaft bearing parts 230 and the second parts of bearings 240 are supported by support frame 510 respectively.
Because clutch shaft bearing parts 230 are supported by support frame 510, the direction that the first clearer 210 therefore being supported by clutch shaft bearing parts 230 is pushed on fixing band 171 is accurately controlled.Similarly, because the second parts of bearings 240 is supported by clutch shaft bearing parts 230, the direction that the second clearer 220 therefore being supported by the second parts of bearings 240 is pushed on the first clearer 210 being supported by clutch shaft bearing parts 230 is accurately controlled.
Figure 27 is the front elevation of the part identical with the part shown in Figure 23.Figure 28 is the cut-open view along the arrow XXVIII-XXVIII intercepting shown in Figure 27.Figure 29 is the cut-open view along the arrow XXIX-XXIX intercepting shown in Figure 27.
As shown in figure 28, comprise that the direction that the first spring members 250 of Compress Spring is pushed on fixing band 171 along the first clearer 210 being supported by clutch shaft bearing parts 230 applies power to clutch shaft bearing parts 230.
As shown in figure 29, comprise that similarly the direction that the second spring members 260 of Compress Spring is pushed on the first clearer 210 being supported by clutch shaft bearing parts 230 along the second clearer 220 being supported by the second parts of bearings 240 applies power to the second parts of bearings 240.
Here, the supported framework 510 of clutch shaft bearing parts 230 is supported for and can sees Figure 24 and Figure 25 along four-headed arrow E-E() direction move.The second parts of bearings 240 is supported for can be mobile along the direction identical with clutch shaft bearing parts 230 (direction of four-headed arrow E-E).The rotation of the rotation of the first clearer 210 being supported by clutch shaft bearing parts 230 in addition, and the second clearer 220 of being supported by the second parts of bearings 240 is also arranged side by side along the direction of four-headed arrow E-E.
Therefore,, when the second spring members 260 shown in Figure 29 applies power to the second parts of bearings 240, the second spring members 260 is pressed to the second clearer 220 being supported by the second parts of bearings 240 on the first clearer 210 being supported by clutch shaft bearing parts 230.In addition, as shown in figure 28, the second spring members 260 is worked in coordination with the first spring members 250 that applies power to clutch shaft bearing parts 230, and the first clearer 210 is pressed on fixing band 171.Therefore, by the first clearer 210, being applied to thrust on fixing band 171 is better than reliably by the second clearer 220 and is applied to the thrust on the first clearer 210.
The effect of the relation based between thrust strength is identical with the effect of the relation between the thrust strength of the second clearer 320 with the first clearer 310 of the cleaning device 300 of clean warm-up mill 172.Therefore, identical description will be omitted.
As described above, the moving direction of the moving direction of clutch shaft bearing parts 230 and the second parts of bearings 240 is the direction (seeing Figure 24 and Figure 25) of four-headed arrow E-E.The rotation of the rotation of the first clearer 210 being supported by clutch shaft bearing parts 230 in addition, and the second clearer 220 of being supported by the second parts of bearings 240 is also arranged side by side along the direction of four-headed arrow E-E.Therefore, the same with the cleaning device 300 for warm-up mill 172, the direction vector of the thrust being applied by the second spring members 260 overlaps with the direction vector of the thrust being applied by the first spring members 250.As a result, when the first clearer 210 is pressed on fixing band 171, can obtain with minimum spring force needed thrust.
The structure of press device
Figure 30 is the external perspective view of the press device 400 shown in the cut-open view of Fig. 7.Figure 31 is only leaving the two side portions of fixing band of press device 400 and the skeleton view of the inside of press device 400 after excising the remainder of fixing band.Figure 32 is illustrated in the part that is positioned at fixing band inner side of the press device after the fixing band that has removed the two side portions that comprises fixing band.
The outer periderm fixing band 171 of press device 400 covers.Inner metal bezel frame 410 extends vertically in the inner side of press device 400.The end of each inner frame 410 is fixed on example each support frame 510 as shown in Figure 8.Every side part of fixing band 171 is supported by the support section 411 that is positioned at the sidepiece of its corresponding inner frame 410.Fixing band 171 receives warm-up mill 172(and sees Fig. 7) rotary driving force and loopy moving in the direction of arrow F.
The pressing component 420 that is formed and extended vertically by resin is fixed on inner frame 410.The pressing component 430 that is formed and extended vertically similarly by rubber is fixed on the pressing component 420 being formed by resin.
Warm-up mill 172(is for example shown in Fig. 8 and Fig. 9) be arranged on warm-up mill 172 and fixing band 171 relative with pressing component 420 and 430 and be placed in the region between warm-up mill 172 and pressing component 420 and 430.Pressing component 420 and 430 is the inner side pushing fixing band 171 from fixing band 171 towards warm-up mill 172.The photographic fixing region that the outside surface of fixing band 171 and warm-up mill 172 contact with each other is formed between the outside surface and warm-up mill 172 of fixing band 171.
The pressing component 430 being formed by rubber pushes fixing bands 171 with suitable elasticity towards warm-up mill 172.The pressing component 420 being formed by resin increases the separability of paper during by pressing component 420 at paper.Pressing component 420 and 430 is exemplary second contact components.
Felt parts 440 as exemplary the first contact component extending vertically are also fixed on the inner frame 410 of press device 400.Felt parts 440 are softer than inner frame 410 and are arranged on the first clearer 210(and see Fig. 7, Fig. 8 and Figure 11 across fixing band 171) parts in relative region.Therefore in this exemplary embodiment, because soft felt parts 440 are arranged between inner frame 410 and the inside surface of fixing band 171, between the outside surface of fixing band 171 and the first clearer 210, provide enough wide contact area.This contributes to remove reliably the residual toner on fixing band.
Felt parts 440 are impregnated with lubricating oil.When fixing band 171 loopy moving, the lubricating oil that felt parts 440 flood is applied on the inside surface of fixing band 171.This has reduced frictional resistance between pressing component 420 and the inside surface of fixing band 171 and the frictional resistance between pressing component 430 and the inside surface of fixing band 171, makes fixing band 171 loopy moving reposefully.Although not shown in Figure 30 to Figure 32, press device 400 also comprises that another felt parts 441(is shown in Fig. 7).Felt parts 441 are also impregnated with lubricating oil.Two felt parts 440 and 441 lubricating oil that flood are applied on the inside surface of fixing band 171.
If be pressed along fixing band 171 from fixing band 171, parts 420 and 430 are pressed to the photographic fixing region warm-up mill 172 and review (trace) Figure 31 with the felt parts 440 shown in Figure 32 and across fixing band first clearer 210 relative with felt parts 440, while reviewing felt parts 440 with the first clearer 210 with the direction when along fixing band 171 loopy movings towards the downstream of fixing band 171 (direction towards Figure 30 with the arrow F shown in Figure 31), compare, when the direction along fixing band 171 loopy movings is when the upstream side (towards the direction of the opposite direction with the arrow F shown in Figure 30 and Figure 31) of fixing band 171 is reviewed felt parts 440 and the first clearer 210, felt parts 440 and the first clearer 210 have nearer distance with photographic fixing region.That is to say, felt parts 440 and the first clearer 210 are arranged on the upstream in photographic fixing region along the direction of fixing band 171 loopy movings.
As described above, the driving of fixing band 171 by the rotation of the warm-up mill 172 that is subject to contacting with this fixing band 171 in photographic fixing region and loopy moving.The first clearer 210 is by being rotated by the driving of the loopy moving of fixing band 171.Therefore,, if for example the first clearer 210 is arranged on the downstream in photographic fixing region, what the first clearer 210 was pushed to fixing band 171 is heated on the region that roller 172 pushes and rotation.As a result, the rotation of the behavior of fixing band 171 and the first clearer 210 may become unstable.In contrast, in this exemplary embodiment, owing to for example the first clearer 210 being arranged on to the upstream in photographic fixing region, therefore, the region that is provided with the first clearer 210 of fixing band 171 is corresponding with the region that fixing band 171 is subject to warm-up mill 172 pullings, thereby the orientation of fixing band 171 is stable.Correspondingly, the first clearer 210 being arranged in this region is also stably driven, thereby any residual toner on fixing band 171 is all transferred on the first clearer 210 reliably.
Guide member
Figure 33 is the front elevation of guide member.Figure 34 is the cut-open view along the arrow XXXIV-XXXIV intercepting shown in Figure 33.
As described in reference to Figure 1, the leading edge conflict guide member 174 of the paper upwards having been transmitted by sheet-transport belt 140, is continued to transmit, and is directed to the photographic fixing region being placed between fixing band 171 and warm-up mill 172.
Paper receiving-member 620 is formed by resin (such as fluorocarbon resin etc.), and the Width (being the direction of four-headed arrow G-G in Figure 33) that paper receiving-member 620 is set to intersect along the direction of transfer with paper on the guiding surface 611 of plate member 610 is spaced apart from each other.Paper receiving-member 620 is outstanding from guiding surface 611.The direction of transfer leading edge of the paper being transmitted these paper receiving-members 620 of directly conflicting.Along the Width (being the direction of four-headed arrow G-G in Figure 33) of paper, paper receiving-member 620 is not to allow paper closely to arrange with the interval that the region between adjacent paper receiving-member 620 of guiding surface 611 contacts.
The direction of transfer leading edge of the paper having transmitted towards guide member 174 from guide member 174 belows is conflicted and is arranged to from the outstanding paper receiving-member 620 of guiding surface 611.As mentioned above, at printer, 100(is shown in Fig. 1) in, the image of the back edge part that extends to paper from the lead edge portion of paper formed.Therefore, toner may adhere on the leading edge of the paper having transmitted towards guide member 174.When in the situation that toner stick to while paper being guided to photographic fixing region on the leading edge of paper, the toner sticking on leading edge is likely attached on fixing band 171 and warm-up mill 172 in photographic fixing region, and is then attached to the following position of paper: the leading edge from this paper that this position is positioned at paper is (along the sender with paper in the opposite direction) advance position of distance corresponding to the distance that rotates a circle with fixing band 171 and warm-up mill 172 downwards.This may pollute the image of paper or back side of paper.
In this exemplary embodiment, the direction of transfer leading edge conflict paper receiving-member 620 of the paper having transmitted towards guide member 174; And the impact producing during leading edge conflict paper receiving-member 620 by paper, sticks to the leading edge of toner on the leading edge of paper and paper separated and fall on guiding surface 611.The plate member 610 with guiding surface 611 is arranged near warm-up mill 172, and because the plate member 610 according to exemplary embodiment is formed by sheet metal, so this plate member 610 has high thermal conductivity.Therefore, the temperature of plate member 610 is high enough to melt toner, and therefore, the toner of falling on guiding surface 611 is attached on guiding surface 611.As a result, although guiding surface 611 is arranged to face oliquely downward, the probability that separated with the leading edge of paper toner drops is very little.This inside that has prevented printer is inadvertently polluted by toner.
Paper receiving-member 620 is formed by resin material, thereby has low thermal conductivity.As a result, prevented that toner from sticking on paper receiving-member 620.
The plate member 610 being formed by sheet metal is shown in Fig. 1 with respect to the housing 110(of printer 100) support frame 510(by back up pad parts 610 is shown in Figure 12) and ground connection, thereby plate member 610 has zero potential.Paper receiving-member 620 broad ways (direction of four-headed arrow G-G) that are arranged on guiding surface 611 are arranged in the following position on guiding surface 611: described position is positioned at the upstream of leading edge region 611a of the photographic fixing area side of guiding surface 611 along direction of transfer, in order to avoid be arranged in the 611a of leading edge region.
Therefore, after the paper receiving-member 620 of the leading edge conflict guide member 174 of the paper upwards having transmitted towards guide member 174, in the situation that paper contacts with the leading edge region 611a of guiding surface 611, by paper to photographic fixing regional guidance.When paper contacts with guiding surface 611, before this moment, charged paper is discharged by plate member 610.Correspondingly, after electric discharge, paper is directed to photographic fixing region, thereby can prevent the generation that when charged paper enters photographic fixing region contingent image deflects or paper are got dirty.
Next, will describe the structure of the paper receiving-member 620 in guide member 174 and paper receiving-member 620 is installed to the method in plate member 610.
Figure 35 is the front elevation in the only plate member 610 that paper receiving-member 620 is observed from the identical observation point of the observation point with observing guide member 174 Figure 33 after guide member 174 removes.
Figure 36,37 and 38 is respectively front elevation, side view and the skeleton view of paper receiving-member.
Each paper receiving-member 620 has main body 621 and insertion portion 622.Each main body 621 is from the outstanding part of guiding surface 611 when corresponding paper receiving-member 620 is arranged in plate member 610.Each insertion portion 622 is towards plate member 610, to give prominence to and be inserted into the part the corresponding hole 630 shown in Figure 35 from corresponding main part 621.
Paper receiving-member 620 is installed in the process in plate member 610, the insertion portion of paper receiving-member 620 622 is inserted in the hole of plate member 610, and moves insertion portion 622 along guiding surface 611.This is installed in plate member 610 paper receiving-member 620, and the main body 621 of paper receiving-member 620 is outstanding from guiding surface 611 simultaneously.
Correspondingly, the structure that is used for paper receiving-member 620 to be installed in plate member 610 is such structure: after the insertion portion 622 of paper receiving-member 620 is inserted into the hole 630 of plate member 610, paper receiving-member 620 is moved along the guiding surface 611 of the plate member 610 in this structure, thereby paper receiving-member 620 is installed in plate member 610.Therefore, by the structure that in insertion portion patchhole, paper receiving-member is installed in plate member is compared, this structure can be fixedly mounted in plate member 610 paper receiving-member 620 when reducing paper receiving-member 620 amount outstanding towards the back side with only.For the cleaning device 200 of clean fixing band 171, be set to approach very much the back side (referring to Fig. 7) of the guiding surface 611 of plate member 610.When make paper receiving-member 620 amount outstanding from the back side of guiding surface 611 for hour, the size reduction of printer 100.
Here, in this exemplary embodiment, by insertion portion 622 being inserted in the hole 630 in plate member 610 and to make insertion portion 622 approach the direction (direction of the arrow H shown in Figure 35) in photographic fixing region along guiding surface 611 along insertion portion 622 mobile, paper receiving-member 620 is installed in plate member 610.
The direction of arrow H is corresponding with the direction of the paper being transmitted pushing paper receiving-member 620.Therefore, between the operating period of printer 100, paper receiving-member 620 is fixed in plate member 610 more firmly, thereby has further reduced the possibility that between the operating period of printer 100 paper receiving-member 620 and plate member 610 depart from.
The insertion portion 622 of each paper receiving-member 620 comprises the first wing projection 641 and the second wing projection 642.The direction moving along guiding surface 611 after in hole 630 along insertion portion 622 in being inserted into plate member 610, each the first wing projection 641 is arranged on the rear portion of insertion portion 622.The direction moving along guiding surface 611 after in hole 630 along insertion portion 622 in being inserted into plate member 610, each the second wing projection 642 is arranged on the front portion of insertion portion 622.
As shown in figure 37, each first wing projection 641 comprises the first jut 641a and claw 641b.The direction that each first jut 641a inserts in along its corresponding insertion portion 622 to hole 630 is outstanding.Claw 641b and the isolated interval of corresponding main body 621 allow plate member 610 be folded in this claw 641b with accordingly between main body 621 (, claw 641b and the corresponding spaced apart permission plate member 610 of main body 621 are folded in the amount between this claw 641b and corresponding main body 621), and claw 641b from corresponding the first jut 641a to all corresponding side extensions crossing Width of direction of insertion and moving direction.
With each first wing projection 641 similarly, each second wing projection 642 comprises the first jut 642a and claw 642b.The direction that each first jut 642a inserts in along its corresponding insertion portion 622 to hole 630 is outstanding.Claw 642b and the isolated interval of corresponding main body 621 allow plate member 610 be folded in this claw 642b with accordingly between main body 621 (, claw 642b and the corresponding spaced apart permission plate member 610 of main body 621 are folded in the amount between this claw 642b and corresponding main body 621), and claw 642b from corresponding the first jut 642a to all corresponding side extensions crossing Width of direction of insertion and moving direction.
The insertion portion 622 of each paper receiving-member 620 comprises the second jut 643, the second juts 643 and insert the direction outstanding (also seeing Figure 41 and Figure 44 (will describe below)) in corresponding hole 630 between the first wing projection 641 and the second wing projection 642 and along insertion portion 622.
Figure 39 is the skeleton view that the following first stage when observing guide member by the part excision of plate member 610 and from the back side of guiding surface is shown, the stage of this first stage during paper receiving-member is installed on to plate member, that is, this first stage be after insertion portion 622 at paper receiving-member 620 is inserted in the hole of plate member 610, the stage before moving insertion portion 622 along guiding surface.
Figure 40 is the side view of the guide member in the first stage shown in Figure 39.Figure 41 shows the guide member the first stage of observing from the direction of the arrow XLI-XLI along shown in Figure 40.
Figure 42 illustrates when by the skeleton view of the part excision of plate member 610 and the following subordinate phase when guide member is observed at the back side of guiding surface: this subordinate phase is the hole that the insertion portion of paper receiving-member 620 622 is inserted into plate member 610 and makes the stage of insertion portion 622 after guiding surface moves, that is, this subordinate phase is the installation stage afterwards.
Figure 43 is the side view of the guide member in the subordinate phase shown in Figure 42.Figure 44 shows a part for viewed guide member when the direction of the arrow XLIV-XLIV along shown in Figure 43 is observed the guide member in subordinate phase.
As shown in Figure 41 and Figure 44, each hole 630 in plate member 610 limits by first 631, second portion 632, third part 633 and the 4th part 634.
Each first 631 is parts of the corresponding first wing projection 641 of the width insertion portion 622 that is enough to receive corresponding paper receiving-member 620, and each second portion 632 is parts of the corresponding second wing projection 642 of the width insertion portion 622 that is enough to receive corresponding paper receiving-member 620.
Each third part 633 is along following direction, to extend and connect the part of corresponding first 631 and corresponding second portion 632:, and the direction moving along guiding surface 611 afterwards in inserting corresponding hole 630 with the insertion portion 622 of each third part 633 corresponding paper receiving-member 620.In each first 631 and each second portion 632, receive in the first stage of corresponding the first wing projection 641 and corresponding the second wing projection 642, each third part 633 is received corresponding the second jut 643.In the subordinate phase moving along aforementioned moving direction at paper receiving parts 620, each third part 633 receives the first jut 641a(of corresponding the first wing projection 641 to see Figure 37) and broad ways corresponding the first wing jut 641a is clipped in the middle.Now, plate member 610 is placed between main body 621 and the claw 641b of each the first wing projection 641 (seeing Figure 36 to Figure 38) along thickness of slab direction.
As represented in the position relationship shown in Figure 41, each third part 633 that defines corresponding hole 630 has narrow width segments 633a at corresponding the second jut 643 in the first stage along the front side of its moving direction, and each narrow width segments 633a has the width of the width that is narrower than corresponding the second jut 643.Each narrow width segments 633a has such width:, only when in the first stage when the power of the place ahead of the moving direction of corresponding the second jut 643 effect is applied on corresponding paper receiving-member 620, just allow corresponding the second jut 643 forwards to pass through along its moving direction.
As shown in figure 44, in subordinate phase, each second jut 643 is positioned in such position:, and the position that this second jut 643 arrives after the front side of the moving direction along this second jut 643 by corresponding narrow width segments 633a.Each narrow width segments 633a provides resistance, so that each paper receiving-member 620 is not easy to move backward along the moving direction of this paper receiving-member 620.As a result, prevented that each paper receiving parts 620 and plate member 610 from departing from.
Each the 4th part 634 that limits corresponding hole 630 receives the first jut 642a(of corresponding the second wing projection 642 to see Figure 37 in subordinate phase), and broad ways is clipped in the middle corresponding the first jut 642a and supports this first jut 642a(, and broad ways clamps and support the first jut 642a).In this subordinate phase, with the claw 641b of each the first wing projection 641 similarly, the claw 642b(of each the second wing projection 642 is shown in Figure 36 to Figure 38) also with the main body 621 of corresponding paper receiving-member 620, plate member 610 is clipped in the middle.
According to each paper receiving-member 620 of this exemplary embodiment, comprise the insertion portion 622 with said structure.Each hole 630 of plate member 610 has above-mentioned form (shape).Insertion portion 622 and hole 630 make the paper receiving-member 620 can be simply and be installed to securely in plate member 610.
Although here the present invention is applied on the printer 100 with the structure shown in Fig. 1, yet the present invention is widely applicable for the image processing system that uses toner to form the type of image.
The above-mentioned explanation of exemplary embodiment of the present invention is provided for the object of example and explanation.Its intention does not lie in exhaustive or limits the invention to disclosed exact form.Obviously, for those skilled in the art, can carry out multiple modification and modification.Select and explanation embodiment is in order to explain better principle of the present invention and practical application thereof, therefore make the others skilled in the art of the art can understand the various embodiment that the present invention is suitable for and predict the various modifications that are suitable for application-specific.Its object is to limit scope of the present invention by appended claims and equivalents thereof.
Claims (7)
1. a cleaning device, comprising:
The first clearer, it contacts and rotates with parts to be cleaned, make to stick to thing any to be removed and described isolation of components to be cleaned on described parts to be cleaned, and thing to be removed is attached on described the first clearer, described parts rotation to be cleaned or loopy moving, described the first clearer has flexible side face; And
The second clearer, the hardness of its side face is higher than the hardness of the side face of described the first clearer, described the second clearer pushes described the first clearer and is rotated when making described the first clearer elasticity depression, so that it is separated with described the first clearer and thing to be removed is attached on described the second clearer to stick to thing to be removed on described the first clearer.
2. cleaning device according to claim 1, wherein,
Described the second clearer is the metallic roll that lives through shot blast.
3. cleaning device according to claim 1 and 2, wherein,
Described parts to be cleaned are rotatable rollers to be cleaned, and
The hardness of the side face of described the first clearer is lower than the hardness of the side face of described roller to be cleaned.
4. cleaning device according to claim 1 and 2, wherein,
Described the first clearer is the rubber rollers that comprises axle core, and described axle core is surrounded by heat resistant rubber.
5. cleaning device according to claim 3, wherein,
Described the first clearer is the rubber rollers that comprises axle core, and described axle core is surrounded by heat resistant rubber.
6. a fixing device, comprising:
A pair of fixing member, it contacts with each other and rotates or loopy moving, and the paper that is transmitted in the situation that carrying toner image and is placed between described a pair of fixing member is heated and pressurizeed, so that to paper, at least one fixing member in described a pair of fixing member is to be cleaned by toner image photographic fixing; And
Cleaning device, it is set to corresponding with at least one fixing member to be cleaned in described a pair of fixing member, and clean described at least one fixing member to be cleaned by removing any residual toner from described at least one fixing member to be cleaned
Wherein, described cleaning device comprises:
The first clearer, its residual toner that makes to stick on described at least one fixing member to be cleaned is separated with described at least one fixing member to be cleaned, and residual toner is attached on described the first clearer, and described the first clearer has flexible side face; And
The second clearer, the hardness of its side face is higher than the hardness of the side face of described the first clearer, described the second clearer pushes described the first clearer and is rotated when making described the first clearer elasticity depression, so that it is separated with described the first clearer and residual toner is attached on described the second clearer to stick to residual toner on described the first clearer.
7. an image processing system, comprising:
Toner image forming portion, it forms toner image on the paper being just transmitted; And
Fixing device, it is arranged on the downstream of described toner image forming portion along paper conveyance direction, and by the toner image photographic fixing on the paper being transmitted after having formed toner image to paper,
Wherein, described fixing device comprises:
A pair of fixing member, it contacts with each other and rotates or loopy moving, and the paper that is transmitted in the situation that carrying toner image and is placed between described a pair of fixing member is heated and pressurizeed, so that to paper, at least one fixing member in described a pair of fixing member is to be cleaned by toner image photographic fixing; And
Cleaning device, it is set to corresponding with at least one fixing member to be cleaned in described a pair of fixing member, and clean described at least one fixing member to be cleaned by removing any residual toner from described at least one fixing member to be cleaned
Wherein, described cleaning device comprises:
The first clearer, its residual toner that makes to stick on described at least one fixing member to be cleaned is separated with described at least one fixing member to be cleaned, and residual toner is attached on described the first clearer, and described the first clearer has flexible side face; And
The second clearer, the hardness of its side face is higher than the hardness of the side face of described the first clearer, described the second clearer pushes described the first clearer and is rotated when making described the first clearer elasticity depression, so that it is separated with described the first clearer and residual toner is attached on described the second clearer to stick to residual toner on described the first clearer.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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JP2012-203345 | 2012-09-14 | ||
JP2012203345A JP2014059391A (en) | 2012-09-14 | 2012-09-14 | Cleaning device, fixing device, and image forming device |
Publications (1)
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CN103676590A true CN103676590A (en) | 2014-03-26 |
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CN201310170113.1A Pending CN103676590A (en) | 2012-09-14 | 2013-05-09 | Cleaning device, fixing device, and image forming apparatus |
Country Status (3)
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US (1) | US8918039B2 (en) |
JP (1) | JP2014059391A (en) |
CN (1) | CN103676590A (en) |
Cited By (1)
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CN104442036A (en) * | 2014-11-06 | 2015-03-25 | 合肥东彩印刷科技有限公司 | Printing roller cleaner |
Families Citing this family (11)
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JP6015271B2 (en) * | 2012-09-14 | 2016-10-26 | 富士ゼロックス株式会社 | Cleaning device, fixing device, and image forming apparatus |
JP5920131B2 (en) * | 2012-09-14 | 2016-05-18 | 富士ゼロックス株式会社 | Cleaning device, fixing device, and image forming apparatus |
JP5783317B1 (en) | 2014-11-21 | 2015-09-24 | 富士ゼロックス株式会社 | Cleaning device, recovery member, fixing device, and image forming apparatus |
JP6658082B2 (en) * | 2016-02-25 | 2020-03-04 | 富士ゼロックス株式会社 | Fixing device, image forming device, and temperature control program |
US10350913B2 (en) * | 2016-10-21 | 2019-07-16 | Fuji Xerox Co., Ltd. | Image forming apparatus and non-transitory computer readable medium for processing an instruction to use a borderless printing function |
JP7109908B2 (en) * | 2017-11-21 | 2022-08-01 | シャープ株式会社 | image forming device |
US10915043B2 (en) | 2018-09-04 | 2021-02-09 | Fuji Xerox Co., Ltd. | Image forming apparatus |
JP7131244B2 (en) | 2018-09-21 | 2022-09-06 | 富士フイルムビジネスイノベーション株式会社 | image forming device |
JP7180234B2 (en) | 2018-09-25 | 2022-11-30 | 富士フイルムビジネスイノベーション株式会社 | image forming device |
JP7512612B2 (en) | 2020-03-02 | 2024-07-09 | 富士フイルムビジネスイノベーション株式会社 | Image forming device |
JP7501022B2 (en) | 2020-03-19 | 2024-06-18 | 富士フイルムビジネスイノベーション株式会社 | Image forming device |
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US20140079452A1 (en) | 2014-03-20 |
JP2014059391A (en) | 2014-04-03 |
US8918039B2 (en) | 2014-12-23 |
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